Abstract
We examined the mortality risks among 2463 individuals who were exposed in utero to atomic bomb radiation in Hiroshima or Nagasaki in August 1945 and were followed from October 1950 through 2012. Individual estimates of mother’s weighted absorbed uterine dose (DS02R1) were used. Poisson regression method was used to estimate the radiation-associated excess relative risk per Gy (ERR/Gy) and 95% confidence intervals (CI) for cause-specific mortality. Head size, birth weight, and parents’ survival status were evaluated as potential mediators of radiation effect. There were 339 deaths (216 males and 123 females) including deaths from solid cancer (n = 137), lymphohematopoietic cancer (n = 8), noncancer disease (n = 134), external cause (n = 56), and unknown cause (n = 4). Among males, the unadjusted ERR/Gy (95% CI) was increased for noncancer disease mortality (1.22, 0.10–3.14), but not for solid cancer mortality (− 0.18, < − 0.77–0.95); the unadjusted ERR/Gy for external cause mortality was not statistically significant (0.28, < − 0.60–2.36). Among females, the unadjusted ERRs/Gy were increased for solid cancer (2.24, 0.44–5.58), noncancer (2.86, 0.56–7.64), and external cause mortality (2.57, 0.20–9.19). The ERRs/Gy adjusted for potential mediators did not change appreciably for solid cancer mortality, but decreased notably for noncancer mortality (0.39, < − 0.43–1.91 for males; 1.48, − 0.046–4.55 for females) and external cause mortality (0.10, < − 0.57–1.96 for males; 1.38, < − 0.46–5.95 for females). In conclusion, antenatal radiation exposure is a consistent risk factor for increased solid cancer mortality among females, but not among males. The effect of exposure to atomic bomb radiation on noncancer disease and external cause mortality among individuals exposed in utero was mediated through small head size, low birth weight, and parental loss.
Highlights
Radiation has been recognized to increase the risks of mortality [1] and incidence of adult-onset solid cancer in individuals who were acutely exposed
The frequency of individuals with low birth weight (11.7% = 84/715), those with small head size (6.1% = 44/715), and those who lost fathers (31.6% = 226/715) were high for subjects exposed within 2000 m of the hypocenters compared to subjects exposed at other distances (Table 2)
A significantly raised radiation-associated excess relative risk per Gy (ERR/Gy) of 2.24 for solid cancer mortality in females exposed in utero was found for all attained ages
Summary
Radiation has been recognized to increase the risks of mortality (followed-up through age of 46 years) [1] and incidence of adult-onset solid cancer (followed-up through age of 55 years) in individuals who were acutely exposed. Solid cancer mortality rates in females increased after the attained age of 20 years, and the rates in males increased after the age of 40 years (Fig. 2). The rates of noncancer disease mortality in both males and females increased with an attained age of 30 years or older. The rates of external cause of death remained approximately constant in those aged 20 years or older (Fig. 2). The background mortality rates for noncancer disease and external causes by trimester did not vary (data not shown), whereas the background mortality rates for solid cancer for exposure in the 2nd trimester was decreased (relative risk (RR) with respect to 3rd trimester = 0.58: 95% CI: 0.38–0.89).
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